BAL, B. 2017. Numerical Investigation of the Role of Volumetric Transformation Strain on the Relaxation Stress and the Corresponding Hydrogen Interstitial Concentration in Niobium Matrix. ADVANCES IN MATERIALS SCIENCE AND ENGINEERING .

BAL, B., (2017). Numerical Investigation of the Role of Volumetric Transformation Strain on the Relaxation Stress and the Corresponding Hydrogen Interstitial Concentration in Niobium Matrix. ADVANCES IN MATERIALS SCIENCE AND ENGINEERING .

BAL, BURAK. "Numerical Investigation of the Role of Volumetric Transformation Strain on the Relaxation Stress and the Corresponding Hydrogen Interstitial Concentration in Niobium Matrix," ADVANCES IN MATERIALS SCIENCE AND ENGINEERING , 2017

BAL, BURAK. "Numerical Investigation of the Role of Volumetric Transformation Strain on the Relaxation Stress and the Corresponding Hydrogen Interstitial Concentration in Niobium Matrix." ADVANCES IN MATERIALS SCIENCE AND ENGINEERING , 2017

BAL, B. (2017) . "Numerical Investigation of the Role of Volumetric Transformation Strain on the Relaxation Stress and the Corresponding Hydrogen Interstitial Concentration in Niobium Matrix." ADVANCES IN MATERIALS SCIENCE AND ENGINEERING .

@article{article, author={BURAK BAL}, title={Numerical Investigation of the Role of Volumetric Transformation Strain on the Relaxation Stress and the Corresponding Hydrogen Interstitial Concentration in Niobium Matrix}, journal={ADVANCES IN MATERIALS SCIENCE AND ENGINEERING}, year=2017}